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Start to work on rewriting the all composition

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This commit is contained in:
Denis Blank 2018-02-28 17:35:33 +01:00
parent 375e376db8
commit 1853ec8b42
4 changed files with 85 additions and 147 deletions
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195
include/continuable/detail/composition-all.hpp
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@ -49,30 +49,55 @@ namespace cti {
namespace detail { namespace detail {
namespace composition { namespace composition {
namespace all { namespace all {
template <std::size_t Pos, typename T> struct all_hint_deducer {
constexpr void assign(traits::size_constant<Pos> /*pos*/, T& /*storage*/) { static constexpr auto deduce(hints::signature_hint_tag<>) noexcept
// ... -> decltype(spread_this());
}
template <std::size_t Pos, typename T, typename Current, typename... Args> template <typename First>
void assign(traits::size_constant<Pos> pos, T& storage, Current&& current, static constexpr auto deduce(hints::signature_hint_tag<First>) -> First;
Args&&... args) {
// TODO Improve this -> linear instantiation template <typename First, typename Second, typename... Args>
std::get<Pos>(storage) = std::forward<Current>(current); static constexpr auto
assign(pos + traits::size_constant_of<1>(), storage, deduce(hints::signature_hint_tag<First, Second, Args...>)
std::forward<Args>(args)...); -> decltype(spread_this(std::declval<First>(), std::declval<Second>(),
} std::declval<Args>()...));
template <
typename T,
std::enable_if_t<base::is_continuable<std::decay_t<T>>::value>* = nullptr>
auto operator()(T&& /*continuable*/) const
-> decltype(deduce(hints::hint_of(traits::identify<T>{})));
};
constexpr auto deduce_from_pack(traits::identity<void>)
-> hints::signature_hint_tag<>;
template <typename... T>
constexpr auto deduce_from_pack(traits::identity<std::tuple<T...>>)
-> hints::signature_hint_tag<T...>;
template <typename T>
constexpr auto deduce_from_pack(traits::identity<T>)
-> hints::signature_hint_tag<T>;
// We must guard the mapped type against to be void since this represents an
// empty signature hint.
template <typename Composition>
constexpr auto deduce_hint(Composition && /*composition*/)
-> decltype(deduce_from_pack(
traits::identity<decltype(map_pack(all_hint_deducer{},
std::declval<Composition>()))>{})){};
/// Caches the partial results and invokes the callback when all results /// Caches the partial results and invokes the callback when all results
/// are arrived. This class is thread safe. /// are arrived. This class is thread safe.
template <typename T, std::size_t Submissions, typename... Args> template <typename Callback, typename Result>
class all_result_submitter : public std::enable_shared_from_this< class all_result_submitter : public std::enable_shared_from_this<
all_result_submitter<T, Submissions, Args...>>, all_result_submitter<Callback, Result>>,
public util::non_movable { public util::non_movable {
T callback_; Callback callback_;
Result result_;
std::atomic<std::size_t> left_; std::atomic<std::size_t> left_;
std::once_flag flag_; std::once_flag flag_;
std::tuple<Args...> result_;
template <std::size_t From, std::size_t To, typename... PartialArgs> template <std::size_t From, std::size_t To, typename... PartialArgs>
void resolve(traits::size_constant<From> from, traits::size_constant<To>, void resolve(traits::size_constant<From> from, traits::size_constant<To>,
@ -118,95 +143,47 @@ class all_result_submitter : public std::enable_shared_from_this<
} }
} }
template <std::size_t From, std::size_t To> template <typename Target>
struct partial_all_callback { struct partial_all_callback {
Target* target_;
std::shared_ptr<all_result_submitter> me_; std::shared_ptr<all_result_submitter> me_;
template <typename... PartialArgs> template <typename... PartialArgs>
void operator()(PartialArgs&&... args) && { void operator()(PartialArgs&&... args) && {
me_->resolve(traits::size_constant<From>{}, traits::size_constant<To>{},
std::forward<PartialArgs>(args)...);
} }
template <typename... PartialArgs> template <typename... PartialArgs>
void set_value(PartialArgs&&... args) { void operator()(types::dispatch_error_tag, types::error_type) && {
std::move (*this)(std::forward<PartialArgs>(args)...);
}
void set_exception(types::error_type error) {
std::move (*this)(types::dispatch_error_tag{}, std::move(error));
} }
}; };
public: public:
explicit all_result_submitter(T callback) explicit all_result_submitter(Callback callback, Result&& result)
: callback_(std::move(callback)), left_(Submissions) { : callback_(std::move(callback)), result_(std::move(result)), left_(1) {
} }
/// Creates a submitter which submits it's result into the tuple /// Creates a submitter which submits it's result into the storage
template <std::size_t From, std::size_t To> template <typename Target>
auto create_callback(traits::size_constant<From> /*from*/, auto create_callback(Target* target) {
traits::size_constant<To> /*to*/) { left_.fetch_add(1, std::memory_order_seq_cst);
return partial_all_callback<From, To>{this->shared_from_this()}; return partial_all_callback<std::decay_t<Target>>{target,
this->shared_from_this()};
}
/// Initially the counter is created with an initial count of 1 in order
/// to prevent that the composition is finished before all callbacks
/// were registered.
void start_accept() {
} }
}; };
/// Creates a submitter which caches the intermediate results of `all` chains struct continuable_dispatcher {
template <typename Callback, std::size_t Submissions, typename... Args> template <typename Index, typename Target,
auto make_all_result_submitter(Callback&& callback, std::enable_if_t<
traits::size_constant<Submissions>, base::is_continuable<std::decay_t<Index>>::value>* = nullptr>
traits::identity<Args...>) { auto operator()(Index* index, Target* target) const noexcept {
return std::make_shared<all_result_submitter<std::decay_t<decltype(callback)>,
Submissions, Args...>>(
std::forward<decltype(callback)>(callback));
}
/// A callable object to merge multiple signature hints together
struct entry_merger {
template <typename... T>
constexpr auto operator()(T&&...) const noexcept {
return traits::merge(hints::hint_of(traits::identify<T>())...);
} }
}; };
struct all_hint_deducer {
static constexpr auto deduce(hints::signature_hint_tag<>) noexcept {
return spread_this();
}
template <typename First>
static constexpr auto deduce(hints::signature_hint_tag<First>) {
return First{};
}
template <typename First, typename Second, typename... Args>
static constexpr auto
deduce(hints::signature_hint_tag<First, Second, Args...>) {
return spread_this(First{}, Second{}, Args{}...);
}
template <
typename T,
std::enable_if_t<base::is_continuable<std::decay_t<T>>::value>* = nullptr>
auto operator()(T&& /*continuable*/) const {
return deduce(hints::hint_of(traits::identify<T>{}));
}
};
constexpr auto deduce_from_pack(traits::identity<void>)
-> hints::signature_hint_tag<>;
template <typename... T>
constexpr auto deduce_from_pack(traits::identity<std::tuple<T...>>)
-> hints::signature_hint_tag<T...>;
template <typename T>
constexpr auto deduce_from_pack(traits::identity<T>)
-> hints::signature_hint_tag<T>;
// We must guard the mapped type against to be void since this represents an
// empty signature hint.
template <typename Composition>
constexpr auto deduce_hint(Composition && /*composition*/)
-> decltype(deduce_from_pack(
traits::identity<decltype(map_pack(all_hint_deducer{},
std::declval<Composition>()))>{})){};
} // namespace all } // namespace all
/// Finalizes the all logic of a given composition /// Finalizes the all logic of a given composition
@ -223,52 +200,10 @@ struct composition_finalizer<composition_strategy_all_tag> {
return [composition = std::forward<Composition>(composition)]( return [composition = std::forward<Composition>(composition)](
auto&& callback) mutable { auto&& callback) mutable {
// We mark the current 2-dimensional position through a pair: auto result =
// std::pair<size_constant<?>, size_constant<?>> remapping::create_result_pack(std::forward<Composition>(composition));
// ~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~
// Continuation pos Result pos
constexpr auto const begin = std::make_pair(
traits::size_constant_of<0>(), traits::size_constant_of<0>());
constexpr auto const pack = traits::identify<decltype(composition)>{};
constexpr auto const end = traits::pack_size_of(pack);
auto const condition = [=](auto pos) { return pos.first < end; };
constexpr auto const signature = hint<Composition>();
// Create the result submitter which caches all results and invokes
// the final callback upon completion.
auto submitter = all::make_all_result_submitter(
std::forward<decltype(callback)>(callback), end, signature);
// Invoke every continuation with it's callback of the submitter
traits::static_while(begin, condition, [&](auto current) mutable {
auto entry =
std::move(std::get<decltype(current.first)::value>(composition));
// This is the length of the arguments of the current continuable
constexpr auto const arg_size =
traits::pack_size_of(hints::hint_of(traits::identity_of(entry)));
// The next position in the result tuple
constexpr auto const next = current.second + arg_size;
// Invoke the continuation with the associated submission callback
base::attorney::invoke_continuation(
std::move(entry), submitter->create_callback(current.second, next));
return std::make_pair(current.first + traits::size_constant_of<1>(),
next);
});
}; };
} }
/*template <typename Composition>
static auto finalize_new(Composition&& composition) {
return [composition = std::forward<Composition>(composition)](
auto&& callback) mutable {
// TODO
};
}*/
}; };
} // namespace composition } // namespace composition
} // namespace detail } // namespace detail

14
include/continuable/detail/composition-remapping.hpp
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@ -81,6 +81,20 @@ struct unpack_result_guards {
} }
}; };
constexpr void_result_guard wrap() {
return {};
}
template <typename First>
constexpr decltype(auto) wrap(First&& first) {
return std::forward<First>(first);
}
template <typename First, typename Second, typename... Rest>
constexpr decltype(auto) wrap(First&& first, Second&& second, Rest&&... rest) {
return std::make_tuple(std::forward<First>(first),
std::forward<Second>(second),
std::forward<Rest>(rest)...);
}
namespace detail { namespace detail {
struct result_extractor_mapper { struct result_extractor_mapper {
/// Create slots for a void result which is removed later. /// Create slots for a void result which is removed later.

20
include/continuable/detail/composition-seq.hpp
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@ -42,6 +42,7 @@
#include <continuable/detail/composition-all.hpp> #include <continuable/detail/composition-all.hpp>
#include <continuable/detail/composition-remapping.hpp> #include <continuable/detail/composition-remapping.hpp>
#include <continuable/detail/traits.hpp> #include <continuable/detail/traits.hpp>
#include <continuable/detail/util.hpp>
namespace cti { namespace cti {
namespace detail { namespace detail {
@ -122,20 +123,6 @@ struct index_relocator {
} }
}; };
constexpr remapping::void_result_guard wrap() {
return {};
}
template <typename First>
constexpr decltype(auto) wrap(First&& first) {
return std::forward<First>(first);
}
template <typename First, typename Second, typename... Rest>
constexpr decltype(auto) wrap(First&& first, Second&& second, Rest&&... rest) {
return std::make_tuple(std::forward<First>(first),
std::forward<Second>(second),
std::forward<Rest>(rest)...);
}
template <typename Callback, typename Index, typename Result> template <typename Callback, typename Index, typename Result>
struct sequential_dispatch_data { struct sequential_dispatch_data {
Callback callback; Callback callback;
@ -145,7 +132,8 @@ struct sequential_dispatch_data {
template <typename Data> template <typename Data>
class sequential_dispatch_visitor class sequential_dispatch_visitor
: public std::enable_shared_from_this<sequential_dispatch_visitor<Data>> { : public std::enable_shared_from_this<sequential_dispatch_visitor<Data>>,
public util::non_movable {
Data data_; Data data_;
@ -181,7 +169,7 @@ public:
next = std::forward<N>(next) ](auto&&... args) mutable { next = std::forward<N>(next) ](auto&&... args) mutable {
// Assign the result to the target // Assign the result to the target
*target = wrap(std::forward<decltype(args)>(args)...); *target = remapping::wrap(std::forward<decltype(args)>(args)...);
// Continue the asynchronous sequential traversal // Continue the asynchronous sequential traversal
next(); next();

3
include/continuable/detail/composition.hpp
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@ -142,7 +142,7 @@ auto connect(Strategy strategy, continuable_base<LData, LAnnotation>&& left,
template <typename Strategy> template <typename Strategy>
struct composition_finalizer; struct composition_finalizer;
/// Finalizes the any logic of a given composition /// Finalizes the connection logic of a given composition
template <typename Data, typename Strategy> template <typename Data, typename Strategy>
auto finalize_composition(continuable_base<Data, Strategy>&& continuation) { auto finalize_composition(continuable_base<Data, Strategy>&& continuation) {
using finalizer = composition_finalizer<Strategy>; using finalizer = composition_finalizer<Strategy>;
@ -197,6 +197,7 @@ struct prepare_continuables {
continuable.freeze(); continuable.freeze();
// Materialize every continuable // Materialize every continuable
// TODO Actually we would just need to consume the data here
return base::attorney::materialize(std::forward<Continuable>(continuable)); return base::attorney::materialize(std::forward<Continuable>(continuable));
} }
}; };